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Today we find the GPU Flashback Archive delving into the not so distant past to focus on the NVIDIA 900 series of graphics cards, the first to use NVIDIA’s new Maxwell architecture which had already seen the light day in mobile GPU solutions, an indication of the direction that the company were taking at the time. Let’s take a look at the cards that were launched as part of the 900 Series, the improvements and changes that Maxwell brought and some of the more memorable scores that have been posted on HWBOT.

The first question one may well have regarding the NVIDIA 900 series is simple - what happened to the 800 series? To answer the question fully, you must first look at the direction that NVIDIA was moving at the time. A movement to expand its product offerings in order to compete in the quickly expanding mobile SoC market. The suddenly ubiquity of Android-based smartphones around the globe was fuelled in part by the development of mobile SoCs from Qualcomm, Samsung, Mediatek, Marvell, Allwinner and others. The traditional feature phone was quickly being replaced by smartphones that now required improved multi-core CPU performance, HD display support and, importantly from NVIDIA’s perspective, decent enough graphics processing to actually play 3D games. Intel and NVIDIA were two companies with plenty of R&D and marketing budget who sought to enter a new market to help bolster revenues during an inevitable slow down of desktop PC sales, a traditional cash cow for both.

The GPU Flashback Archive series continues today with a recap of the NVIDIA GeForce 700 series, a series refresh which heralds part two of the Kepler family of GPUs. We can also remember it as a time when NVIDIA launched their first ever GTX Titan card and with it, a new pricing and retail strategy for truly high-end graphics card products. Let’s take a look at the new Kepler architecture GPUs, the cards that were popular with HWBOT members and some of the more memorable scores that have been posted since launch.

The 2011-2013 period of history saw NVIDIA implement a more regular cadence to their high-end product launches and refreshes. One that saw the company launch a new GPU architecture every two years, with new product lines arriving each year. This means deriving two product lines per architecture with an improved version offered the second time out. This is what we saw with Fermi, an architecture whose potential was full realized at the second attempt. With the GeForce 700 series, which arrived proper in May 2013 with the arrival of both the GeForce GTX 780 and GTX 770, we have something different. The new cards arrived using a much bigger version of the Kepler architecture compared to what we saw on the NVIDIA 600 series.

The GPU Flashback Archive arrives today at the NVIDIA 600 series that debuted in Spring of 2012. The new range of cards showcased a new graphics architecture design and the beginning of what we might describe as the Kepler era. Let’s take a peek at the changes that the new design heralded as well as a close up view of on the GeForce GTX 680 card, the most popular 6-series card with HWBOT members historically speaking. Before we look at some notable scores that were made with the GeForce 680, let’s first kick off with an overview of what innovations arrived with the new Kepler architecture.

If we cast our minds back to 2012 we can recall a era when NVIDIA and AMD were virtually neck and neck, with successive graphic card launches from each company swinging the performance crown from side to side. The arrival of Kepler in many ways represents the beginning of the end of the competitive duopoly that is clearly absent today. Kepler helped NVIDIA push ahead of AMD in terms of graphics processor design, creating a performance lead which AMD still finds insurmountable, despite the arrival of their latest Vega-based cards. Let’s take a look at Kepler in a little detail.

This week the GPU Flashback Archive sets its sights on the GeForce 500 series from NVIDIA. Arriving in late 2010, the 500 Series was the second round of graphics cards based on the Fermi architecture which had limped over the line in the previous generation, ostensibly due to fabrication and yield issues. The new flagship GTX 580 arrived with a more polished take on the Fermi design that help NVIDIA combat the threat from AMD and their popular Radeon 5000 and 6000 series cards. As ever, let’s take a look at the new GPU, the new flagship card and a few of the outstanding scores that have been submitted to HWBOT.

To say that the NVIDIA 400 series graphics cards launch was less than smooth, would be a total understatement. The GF100 Fermi architecture GPU in fact arrived six months late with a significant number of cores hacked off. Blame was laid at the door of fabricators TSMC and a 40nm manufacturing process that clearly hadn’t been optimally adapted for NVIDIA’s Fermi, a monster chip boasting 3 billion transistors and a 529mm² die. While cards such as the GTX 480 had actually done well to make NVIDIA competitive in performance terms, the GTX 580 and its GF110 GPU was rather quickly shoved out the door just eight months later as a revised and improved version of the original.

This week in our GPU Flashback Archive series we cast our minds back to a very popular and well loved graphics card series, the GeForce 400 series. NVIDIA launched the GeForce 400 series in March 2010 armed with a new Fermi architecture that it hoped would help it compete with the successful AMD Radeon 5000 series. Let’s look at the new features that Fermi offered, the cards that were popular and the scores that were submitted to HWBOT in this era.

Compared to previous product launches from NVIDIA, the GeForce 400 series launch did not go as smoothly as hoped. September 2009 saw AMD come out with their Radeon 5000 series which made a solid case against NVIDIA 200 series offerings. It would be January before NVIDIA really started wooing tech media with tales of its forthcoming Fermi architecture lineup. It would be March 2010 before tech media actually got their hands on the new cards and several weeks after that before enthusiasts would be able to actually buy one. This was not the typical NVIDIA launch. Reasons for the delay certainly seemed to lie with issues with actual fabrication at TSMC who were not providing the yields expected on their new 40nm process. This was a problem that particularly hurt NVIDIA due to the fact that the new Fermi GPU, the GF100, was actually very large. When the GeForce 400 series finally arrived in the form of the GeForce GTX 480 and GTX 470, by most calculations they were six months late.

硬件新闻

Taipei, Taiwan (11 June 2018) – G.SKILL International Enterprise Co., Ltd., the world’s leading manufacturer of extreme performance memory and gaming peripherals, is excited to announce that 13 overclocking records from various benchmark categories were broken during Computex 2018, all using G.SKILL DDR4 memory kits built with high performance Samsung 8Gb components with the latest Intel® processors and performance motherboards. All the exciting overclocking action is featured in the following after-movie: https://www.youtube.com/watch?v=j49yXPu6H6A&feature=youtu.be

Memory World Record Broken at DDR4-5543MHz

A new memory frequency world record was set this week at the G.SKILL Computex booth by Toppc, a renowned professional extreme overclocker, reaching DDR4-5543MHz using Trident Z RGB memory on a MSI Z370I GAMING PRO CARBON AC motherboard and an Intel® Core™ i7-8700K processor. On the same day, another pro extreme overclocker named Kovan Yang overclocked the Trident Z RGB memory to a whopping DDR4-5541.4MHz, reaching the second spot on the fastest memory frequency rankings, with an MSI X299 GAMING PRO CARBON AC motherboard and an Intel® Core™ i7-7740X processor. This marks the first time that the top two memory frequency records are set on two different chipset platforms.

Taipei, Taiwan (9 June 2018) – G.SKILL International Enterprise Co., Ltd., the world’s leading manufacturer of extreme performance memory and gaming peripherals, is excited to announce the winner of the 5th Annual OC World Cup 2018 – major congratulations to Dancop from Germany on winning the title of OC World Cup Champion and taking home the ultimate grand prize of $10,000 USD! Special thanks to our sponsors from Intel, Samsung, and Kingpin Cooling, as well as all our motherboard venders and master judges for making this event possible.

G.SKILL Announces New Specifications for AMD Ryzen™ 2000 Series Processors and X470 Platform

Up to DDR4-3600MHz

Taipei, Taiwan (19 April 2018) – G.SKILL International Enterprise Co., Ltd., the world’s leading manufacturer of extreme performance memory and gaming peripherals, is excited to announce the release of new Trident Z RGB and Sniper X series specifications launching in conjunction with the release of the AMD Ryzen™ 2000 series processors and the X470 platform. Kit specifications starting from DDR4-3200MHz CL16-18-18-38 16GB (2x8GB) to DDR4-3600MHz 18-22-22-42 16GB (2x8GB), these new specifications push the boundaries of AMD system performance to the next level.

We’ve been working closely with world-renowned overclockers to push the Ryzen 7 2700X to the brink on the Crosshair VII Hero. Elmor has already set a new record for the AM4 reference clock, decimating the old mark of 151.56MHz with an incredible 240.61MHz. TheOverclocker has claimed records for peak Ryzen CPU frequency with 6GHz on not only a single core, but also all eight cores and 16 threads. Top scores have also fallen in key benchmarks for eight-core CPUs, with TheOverclocker setting the fastest time in GPU PI for CPU 1B, and Der8auer hitting the top of the Geekbench3 leaderboard.

Precise voltage is vital when you’re on the edge, so the Hero tracks important rails from the best spot on the power plane, and it uses differential sensing to ensure accurate readings from both software and the onboard ProbeIT measurement points. Most motherboards rely on single-ended sensing tapped from a location that isn’t ideal, making it more difficult to gauge exactly how much voltage is being supplied to your components.

With eight onboard headers for fans and pumps, the Hero has the cooling credentials to match its overclocking aspirations. It’s ready for custom liquid loops thanks to a high-amperage pump header that can push up to 3A, plus additional headers for monitoring coolant temperatures and flow rate. If you somehow run out of places to connect fans, the board works with the ASUS Fan Extension card, which supports even more fans and temperature probes.

Taipei, Taiwan (11 April 2018) – G.SKILL International Enterprise Co., Ltd., the world’s leading manufacturer of extreme performance memory and gaming peripherals, is announcing the rules and benchmarks for the G.SKILL 5th Annual OC World Cup 2018 Live Qualifier. This live competition event will be held during the week of Computex 2018, from June 5th through June 7th, followed by the OC World Cup 2018 Grand Final on June 8, 2018. Be sure to check out the main stage at the G.SKILL booth for exciting live overclocking and liquid nitrogen in action!

It has taken multiple attempts and tweaks, but revision 7.1 of the hwbot points has recalculated all 2.5 million submissions as of yesterday. If you spot any odd points, please comment on this news post.
Thanks for your patience and happy benching!

A little less than 11 days to go in the yearly G.Skill OC World CUP, and Dancop is taking an impressive lead by taking the first spot for every stage. With his Intel 8600K running at a whopping 7091Mhz, and his G.SKILL Trident Z RGB DDR4 running at 2530MHZ, there seems to be no stopping him.

The top 6 will receive an invitation to join the live qualifier at Computex 2018, where the total prize pool is 20.000 USD, of which 10.000 USD for the winner.

There is also a lucky draw between all participants for a set of G.SKILL Trident Z RGB DDR4-3600 2x8GB(16GB) memory, so any submissions counts!